c0e157e3b2
One must build yasm (included in the yasm directory) before building GMP, if building on an x86_64 machine. Note: make test and make tune do not currently build.
182 lines
4.6 KiB
Plaintext
182 lines
4.6 KiB
Plaintext
; Note this file has not been converted over to linux/gcc calling conventions, nor has PIC
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; friendly code been added, nor has the stack unwinding code been removed.
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; Copyright 1999, 2000, 2001, 2002 Free Software Foundation, Inc.
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;
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; This file is part of the GNU MP Library.
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;
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; The GNU MP Library is free software; you can redistribute it and/or
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; modify it under the terms of the GNU Lesser General Public License as
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; published by the Free Software Foundation; either version 2.1 of the
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; License, or (at your option) any later version.
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;
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; The GNU MP Library is distributed in the hope that it will be useful,
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; but WITHOUT ANY WARRANTY; without even the implied warranty of
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; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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; Lesser General Public License for more details.
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;
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; You should have received a copy of the GNU Lesser General Public
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; License along with the GNU MP Library; see the file COPYING.LIB. If
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; not, write to the Free Software Foundation, Inc., 59 Temple Place -
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; Suite 330, Boston, MA 02111-1307, USA.
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;
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; Adapted by Brian Gladman AMD64 using the Microsoft VC++ v8 64-bit
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; compiler and the YASM assembler.
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; AMD64 mpn_divexact_1 -- mpn by limb exact division
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;
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; Calling interface:
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;
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; void mpn_divexact_1(
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; mp_ptr dst, rcx
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; mp_srcptr src, rdx
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; mp_size_t size, r8
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; mp_limb_t divisor r9
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; )
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;
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; since the inverse takes a while to setup,plain division is used for small
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; Multiplying works out faster for size>=3 when the divisor is odd or size>=4
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; when the divisor is even.
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;
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; This is an SEH Frame Function with a leaf prologue
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%define _SEH_
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bits 64
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section .text
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extern __gmp_modlimb_invert_table
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global __gmpn_divexact_1
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%ifdef DLL
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export __gmpn_divexact_1
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%endif
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__gmpn_divexact_1:
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movsxd r8,r8d
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mov r10,rdx
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mov rax,r9
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and rax,byte 1
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add rax,r8
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cmp rax,byte 4
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jae L_mul_by_inverse
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xor rdx,rdx
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L_div_top:
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mov rax,[r10+r8*8-8]
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div r9
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mov [rcx+r8*8-8],rax
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dec r8
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jnz L_div_top
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rep ret ; avoid single byte return
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%ifdef _SEH_
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PROC_FRAME L_mul_by_inverse
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push_reg rsi
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push_reg rdi
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alloc_stack 8 ; align to 16 byte boundary
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END_PROLOGUE
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%else
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L_mul_by_inverse:
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push rsi
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push rdi
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%endif
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mov rsi,rdx ; src pointer
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mov rdi,rcx ; dst pointer
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mov rax,r9
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stc
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sbb rcx,rcx ; -1 -> rcx, r11
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mov r11,rcx
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L_strip_twos:
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shr rax,1
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inc rcx
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jnc L_strip_twos
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lea r9,[rax+rax+1]
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and rax,byte 127
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lea rdx,[rel __gmp_modlimb_invert_table]
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movzx rax,byte [rdx+rax]
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; If f(x) = 0, then x[n+1] = x[n] - f(x) / f'(x) is Newton's iteration for a
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; root. With f(x) = 1/x - v we obtain x[n + 1] = 2 * x[n] - v * x[n] * x[n]
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; as an iteration for x = 1 / v. This provides quadratic convergence so
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; that the number of bits of precision doubles on each iteration. The
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; iteration starts with 8-bit precision.
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lea edx, [rax+rax]
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imul eax, eax
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imul eax, r9d
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sub edx, eax ; inv -> rdx (16-bit approx)
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lea eax, [rdx+rdx]
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imul edx, edx
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imul edx, r9d
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sub eax, edx ; inv -> rcx (32-bit approx)
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lea rdx, [rax+rax]
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imul rax, rax
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imul rax, r9
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sub rdx, rax ; inv -> rcx (64-bit approx)
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mov r8,r8
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lea rsi,[rsi+r8*8]
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lea rdi,[rdi+r8*8]
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neg r8
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mov r10,rdx
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xor r11,r11
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mov rax,[rsi+r8*8]
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or rcx,rcx
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mov rdx,[rsi+r8*8+8]
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jz L_odd_entry
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shrd rax, rdx, cl
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inc r8
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jmp L_even_entry
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L_odd_top:
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mul r9
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mov rax,[rsi+r8*8]
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sub rdx,r11
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sub rax,rdx
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sbb r11,r11
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L_odd_entry:
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imul rax,r10
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mov [rdi+r8*8],rax
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inc r8
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jnz L_odd_top
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jmp L_exit
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L_even_top:
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mul r9
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sub rdx,r11
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mov rax,[rsi+r8*8-8]
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mov r11,[rsi+r8*8]
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shrd rax,r11,cl
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sub rax,rdx
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sbb r11,r11
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L_even_entry:
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imul rax,r10
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mov [rdi+r8*8-8],rax
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inc r8
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jnz L_even_top
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mul r9
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mov rax,[rsi-8]
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sub rdx,r11
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shr rax,cl
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sub rax,rdx
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imul rax,r10
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mov [rdi-8],rax
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L_exit:
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%ifdef _SEH_
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add rsp, 8
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pop rdi
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pop rsi
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ret
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ENDPROC_FRAME
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%else
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pop rdi
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pop rsi
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ret
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%endif
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end
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